(***********************************************************************)
(*                                                                     *)
(*                           Objective Caml                            *)
(*                                                                     *)
(*            Xavier Leroy, projet Cristal, INRIA Rocquencourt         *)
(*                                                                     *)
(*  Copyright 1996 Institut National de Recherche en Informatique et   *)
(*  en Automatique.  All rights reserved.  This file is distributed    *)
(*  under the terms of the Q Public License version 1.0.               *)
(*                                                                     *)
(***********************************************************************)

(* $Id: boyer.ml 7017 2005-08-12 09:22:04Z xleroy $ *)

(* Manipulations over terms *)

type term =
  | Var of int
  | Prop of head * term list

and head =
  { name : string
  ; mutable props : (term * term) list
  }

let rec print_term = function
  | Var v ->
      print_string "v";
      print_int v
  | Prop (head, argl) ->
      print_string "(";
      print_string head.name;
      List.iter
        (fun t ->
          print_string " ";
          print_term t)
        argl;
      print_string ")"

let lemmas = ref ([] : head list)

(* Replacement for property lists *)

let get name =
  let rec get_rec = function
    | hd1 :: hdl -> if hd1.name = name then hd1 else get_rec hdl
    | [] ->
        let entry = { name; props = [] } in
        lemmas := entry :: !lemmas;
        entry
  in
  get_rec !lemmas

let add_lemma = function
  | Prop (_, [ (Prop (headl, _) as left); right ]) ->
      headl.props <- (left, right) :: headl.props
  | _ -> assert false

(* Substitutions *)

type subst = Bind of int * term

let get_binding v list =
  let rec get_rec = function
    | [] -> failwith "unbound"
    | Bind (w, t) :: rest -> if v = w then t else get_rec rest
  in
  get_rec list

let apply_subst alist term =
  let rec as_rec = function
    | Var v -> ( try get_binding v alist with Failure _ -> term)
    | Prop (head, argl) -> Prop (head, List.map as_rec argl)
  in
  as_rec term

exception Unify

let rec unify term1 term2 = unify1 term1 term2 []

and unify1 term1 term2 unify_subst =
  match term2 with
  | Var v -> (
      try if get_binding v unify_subst = term1 then unify_subst else raise Unify
      with Failure _ -> Bind (v, term1) :: unify_subst)
  | Prop (head2, argl2) -> (
      match term1 with
      | Var _ -> raise Unify
      | Prop (head1, argl1) ->
          if head1 == head2 then unify1_lst argl1 argl2 unify_subst else raise Unify)

and unify1_lst l1 l2 unify_subst =
  match l1, l2 with
  | [], [] -> unify_subst
  | h1 :: r1, h2 :: r2 -> unify1_lst r1 r2 (unify1 h1 h2 unify_subst)
  | _ -> raise Unify

let rec rewrite = function
  | Var _ as term -> term
  | Prop (head, argl) ->
      rewrite_with_lemmas (Prop (head, List.map rewrite argl)) head.props

and rewrite_with_lemmas term lemmas =
  match lemmas with
  | [] -> term
  | (t1, t2) :: rest -> (
      try rewrite (apply_subst (unify term t1) t2)
      with Unify -> rewrite_with_lemmas term rest)

type cterm =
  | CVar of int
  | CProp of string * cterm list

let rec cterm_to_term = function
  | CVar v -> Var v
  | CProp (p, l) -> Prop (get p, List.map cterm_to_term l)

let add t = add_lemma (cterm_to_term t)

let _ =
  add
    (CProp
       ( "equal"
       , [ CProp ("compile", [ CVar 5 ])
         ; CProp
             ( "reverse"
             , [ CProp ("codegen", [ CProp ("optimize", [ CVar 5 ]); CProp ("nil", []) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("eqp", [ CVar 23; CVar 24 ])
         ; CProp ("equal", [ CProp ("fix", [ CVar 23 ]); CProp ("fix", [ CVar 24 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("gt", [ CVar 23; CVar 24 ]); CProp ("lt", [ CVar 24; CVar 23 ]) ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("le", [ CVar 23; CVar 24 ]); CProp ("ge", [ CVar 24; CVar 23 ]) ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("ge", [ CVar 23; CVar 24 ]); CProp ("le", [ CVar 24; CVar 23 ]) ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("boolean", [ CVar 23 ])
         ; CProp
             ( "or"
             , [ CProp ("equal", [ CVar 23; CProp ("true", []) ])
               ; CProp ("equal", [ CVar 23; CProp ("false", []) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("iff", [ CVar 23; CVar 24 ])
         ; CProp
             ( "and"
             , [ CProp ("implies", [ CVar 23; CVar 24 ])
               ; CProp ("implies", [ CVar 24; CVar 23 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("even1", [ CVar 23 ])
         ; CProp
             ( "if"
             , [ CProp ("zerop", [ CVar 23 ])
               ; CProp ("true", [])
               ; CProp ("odd", [ CProp ("sub1", [ CVar 23 ]) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("countps_", [ CVar 11; CVar 15 ])
         ; CProp ("countps_loop", [ CVar 11; CVar 15; CProp ("zero", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("fact_", [ CVar 8 ])
         ; CProp ("fact_loop", [ CVar 8; CProp ("one", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("reverse_", [ CVar 23 ])
         ; CProp ("reverse_loop", [ CVar 23; CProp ("nil", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("divides", [ CVar 23; CVar 24 ])
         ; CProp ("zerop", [ CProp ("remainder", [ CVar 24; CVar 23 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("assume_true", [ CVar 21; CVar 0 ])
         ; CProp ("cons", [ CProp ("cons", [ CVar 21; CProp ("true", []) ]); CVar 0 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("assume_false", [ CVar 21; CVar 0 ])
         ; CProp ("cons", [ CProp ("cons", [ CVar 21; CProp ("false", []) ]); CVar 0 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("tautology_checker", [ CVar 23 ])
         ; CProp ("tautologyp", [ CProp ("normalize", [ CVar 23 ]); CProp ("nil", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("falsify", [ CVar 23 ])
         ; CProp ("falsify1", [ CProp ("normalize", [ CVar 23 ]); CProp ("nil", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("prime", [ CVar 23 ])
         ; CProp
             ( "and"
             , [ CProp ("not", [ CProp ("zerop", [ CVar 23 ]) ])
               ; CProp
                   ( "not"
                   , [ CProp ("equal", [ CVar 23; CProp ("add1", [ CProp ("zero", []) ]) ])
                     ] )
               ; CProp ("prime1", [ CVar 23; CProp ("sub1", [ CVar 23 ]) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("and", [ CVar 15; CVar 16 ])
         ; CProp
             ( "if"
             , [ CVar 15
               ; CProp ("if", [ CVar 16; CProp ("true", []); CProp ("false", []) ])
               ; CProp ("false", [])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("or", [ CVar 15; CVar 16 ])
         ; CProp
             ( "if"
             , [ CVar 15
               ; CProp ("true", [])
               ; CProp ("if", [ CVar 16; CProp ("true", []); CProp ("false", []) ])
               ; CProp ("false", [])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("not", [ CVar 15 ])
         ; CProp ("if", [ CVar 15; CProp ("false", []); CProp ("true", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("implies", [ CVar 15; CVar 16 ])
         ; CProp
             ( "if"
             , [ CVar 15
               ; CProp ("if", [ CVar 16; CProp ("true", []); CProp ("false", []) ])
               ; CProp ("true", [])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("fix", [ CVar 23 ])
         ; CProp ("if", [ CProp ("numberp", [ CVar 23 ]); CVar 23; CProp ("zero", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("if", [ CProp ("if", [ CVar 0; CVar 1; CVar 2 ]); CVar 3; CVar 4 ])
         ; CProp
             ( "if"
             , [ CVar 0
               ; CProp ("if", [ CVar 1; CVar 3; CVar 4 ])
               ; CProp ("if", [ CVar 2; CVar 3; CVar 4 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("zerop", [ CVar 23 ])
         ; CProp
             ( "or"
             , [ CProp ("equal", [ CVar 23; CProp ("zero", []) ])
               ; CProp ("not", [ CProp ("numberp", [ CVar 23 ]) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("plus", [ CProp ("plus", [ CVar 23; CVar 24 ]); CVar 25 ])
         ; CProp ("plus", [ CVar 23; CProp ("plus", [ CVar 24; CVar 25 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CProp ("plus", [ CVar 0; CVar 1 ]); CProp ("zero", []) ])
         ; CProp ("and", [ CProp ("zerop", [ CVar 0 ]); CProp ("zerop", [ CVar 1 ]) ])
         ] ));
  add
    (CProp ("equal", [ CProp ("difference", [ CVar 23; CVar 23 ]); CProp ("zero", []) ]));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("plus", [ CVar 0; CVar 1 ]); CProp ("plus", [ CVar 0; CVar 2 ]) ]
             )
         ; CProp ("equal", [ CProp ("fix", [ CVar 1 ]); CProp ("fix", [ CVar 2 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ("equal", [ CProp ("zero", []); CProp ("difference", [ CVar 23; CVar 24 ]) ])
         ; CProp ("not", [ CProp ("gt", [ CVar 24; CVar 23 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CVar 23; CProp ("difference", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "and"
             , [ CProp ("numberp", [ CVar 23 ])
               ; CProp
                   ( "or"
                   , [ CProp ("equal", [ CVar 23; CProp ("zero", []) ])
                     ; CProp ("zerop", [ CVar 24 ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "meaning"
             , [ CProp ("plus_tree", [ CProp ("append", [ CVar 23; CVar 24 ]) ]); CVar 0 ]
             )
         ; CProp
             ( "plus"
             , [ CProp ("meaning", [ CProp ("plus_tree", [ CVar 23 ]); CVar 0 ])
               ; CProp ("meaning", [ CProp ("plus_tree", [ CVar 24 ]); CVar 0 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "meaning"
             , [ CProp ("plus_tree", [ CProp ("plus_fringe", [ CVar 23 ]) ]); CVar 0 ] )
         ; CProp ("fix", [ CProp ("meaning", [ CVar 23; CVar 0 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("append", [ CProp ("append", [ CVar 23; CVar 24 ]); CVar 25 ])
         ; CProp ("append", [ CVar 23; CProp ("append", [ CVar 24; CVar 25 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("reverse", [ CProp ("append", [ CVar 0; CVar 1 ]) ])
         ; CProp
             ("append", [ CProp ("reverse", [ CVar 1 ]); CProp ("reverse", [ CVar 0 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("times", [ CVar 23; CProp ("plus", [ CVar 24; CVar 25 ]) ])
         ; CProp
             ( "plus"
             , [ CProp ("times", [ CVar 23; CVar 24 ])
               ; CProp ("times", [ CVar 23; CVar 25 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("times", [ CProp ("times", [ CVar 23; CVar 24 ]); CVar 25 ])
         ; CProp ("times", [ CVar 23; CProp ("times", [ CVar 24; CVar 25 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CProp ("times", [ CVar 23; CVar 24 ]); CProp ("zero", []) ])
         ; CProp ("or", [ CProp ("zerop", [ CVar 23 ]); CProp ("zerop", [ CVar 24 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("exec", [ CProp ("append", [ CVar 23; CVar 24 ]); CVar 15; CVar 4 ])
         ; CProp
             ("exec", [ CVar 24; CProp ("exec", [ CVar 23; CVar 15; CVar 4 ]); CVar 4 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("mc_flatten", [ CVar 23; CVar 24 ])
         ; CProp ("append", [ CProp ("flatten", [ CVar 23 ]); CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("member", [ CVar 23; CProp ("append", [ CVar 0; CVar 1 ]) ])
         ; CProp
             ( "or"
             , [ CProp ("member", [ CVar 23; CVar 0 ])
               ; CProp ("member", [ CVar 23; CVar 1 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("member", [ CVar 23; CProp ("reverse", [ CVar 24 ]) ])
         ; CProp ("member", [ CVar 23; CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("length", [ CProp ("reverse", [ CVar 23 ]) ])
         ; CProp ("length", [ CVar 23 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("member", [ CVar 0; CProp ("intersect", [ CVar 1; CVar 2 ]) ])
         ; CProp
             ( "and"
             , [ CProp ("member", [ CVar 0; CVar 1 ])
               ; CProp ("member", [ CVar 0; CVar 2 ])
               ] )
         ] ));
  add
    (CProp ("equal", [ CProp ("nth", [ CProp ("zero", []); CVar 8 ]); CProp ("zero", []) ]));
  add
    (CProp
       ( "equal"
       , [ CProp ("exp", [ CVar 8; CProp ("plus", [ CVar 9; CVar 10 ]) ])
         ; CProp
             ( "times"
             , [ CProp ("exp", [ CVar 8; CVar 9 ]); CProp ("exp", [ CVar 8; CVar 10 ]) ]
             )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("exp", [ CVar 8; CProp ("times", [ CVar 9; CVar 10 ]) ])
         ; CProp ("exp", [ CProp ("exp", [ CVar 8; CVar 9 ]); CVar 10 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("reverse_loop", [ CVar 23; CVar 24 ])
         ; CProp ("append", [ CProp ("reverse", [ CVar 23 ]); CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("reverse_loop", [ CVar 23; CProp ("nil", []) ])
         ; CProp ("reverse", [ CVar 23 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("count_list", [ CVar 25; CProp ("sort_lp", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "plus"
             , [ CProp ("count_list", [ CVar 25; CVar 23 ])
               ; CProp ("count_list", [ CVar 25; CVar 24 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("append", [ CVar 0; CVar 1 ])
               ; CProp ("append", [ CVar 0; CVar 2 ])
               ] )
         ; CProp ("equal", [ CVar 1; CVar 2 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "plus"
             , [ CProp ("remainder", [ CVar 23; CVar 24 ])
               ; CProp ("times", [ CVar 24; CProp ("quotient", [ CVar 23; CVar 24 ]) ])
               ] )
         ; CProp ("fix", [ CVar 23 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ("power_eval", [ CProp ("big_plus", [ CVar 11; CVar 8; CVar 1 ]); CVar 1 ])
         ; CProp ("plus", [ CProp ("power_eval", [ CVar 11; CVar 1 ]); CVar 8 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "power_eval"
             , [ CProp ("big_plus", [ CVar 23; CVar 24; CVar 8; CVar 1 ]); CVar 1 ] )
         ; CProp
             ( "plus"
             , [ CVar 8
               ; CProp
                   ( "plus"
                   , [ CProp ("power_eval", [ CVar 23; CVar 1 ])
                     ; CProp ("power_eval", [ CVar 24; CVar 1 ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("remainder", [ CVar 24; CProp ("one", []) ]); CProp ("zero", []) ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("lt", [ CProp ("remainder", [ CVar 23; CVar 24 ]); CVar 24 ])
         ; CProp ("not", [ CProp ("zerop", [ CVar 24 ]) ])
         ] ));
  add (CProp ("equal", [ CProp ("remainder", [ CVar 23; CVar 23 ]); CProp ("zero", []) ]));
  add
    (CProp
       ( "equal"
       , [ CProp ("lt", [ CProp ("quotient", [ CVar 8; CVar 9 ]); CVar 8 ])
         ; CProp
             ( "and"
             , [ CProp ("not", [ CProp ("zerop", [ CVar 8 ]) ])
               ; CProp
                   ( "or"
                   , [ CProp ("zerop", [ CVar 9 ])
                     ; CProp ("not", [ CProp ("equal", [ CVar 9; CProp ("one", []) ]) ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("lt", [ CProp ("remainder", [ CVar 23; CVar 24 ]); CVar 23 ])
         ; CProp
             ( "and"
             , [ CProp ("not", [ CProp ("zerop", [ CVar 24 ]) ])
               ; CProp ("not", [ CProp ("zerop", [ CVar 23 ]) ])
               ; CProp ("not", [ CProp ("lt", [ CVar 23; CVar 24 ]) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("power_eval", [ CProp ("power_rep", [ CVar 8; CVar 1 ]); CVar 1 ])
         ; CProp ("fix", [ CVar 8 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "power_eval"
             , [ CProp
                   ( "big_plus"
                   , [ CProp ("power_rep", [ CVar 8; CVar 1 ])
                     ; CProp ("power_rep", [ CVar 9; CVar 1 ])
                     ; CProp ("zero", [])
                     ; CVar 1
                     ] )
               ; CVar 1
               ] )
         ; CProp ("plus", [ CVar 8; CVar 9 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("gcd", [ CVar 23; CVar 24 ]); CProp ("gcd", [ CVar 24; CVar 23 ]) ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("nth", [ CProp ("append", [ CVar 0; CVar 1 ]); CVar 8 ])
         ; CProp
             ( "append"
             , [ CProp ("nth", [ CVar 0; CVar 8 ])
               ; CProp
                   ( "nth"
                   , [ CVar 1
                     ; CProp ("difference", [ CVar 8; CProp ("length", [ CVar 0 ]) ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("difference", [ CProp ("plus", [ CVar 23; CVar 24 ]); CVar 23 ])
         ; CProp ("fix", [ CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("difference", [ CProp ("plus", [ CVar 24; CVar 23 ]); CVar 23 ])
         ; CProp ("fix", [ CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "difference"
             , [ CProp ("plus", [ CVar 23; CVar 24 ])
               ; CProp ("plus", [ CVar 23; CVar 25 ])
               ] )
         ; CProp ("difference", [ CVar 24; CVar 25 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("times", [ CVar 23; CProp ("difference", [ CVar 2; CVar 22 ]) ])
         ; CProp
             ( "difference"
             , [ CProp ("times", [ CVar 2; CVar 23 ])
               ; CProp ("times", [ CVar 22; CVar 23 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("remainder", [ CProp ("times", [ CVar 23; CVar 25 ]); CVar 25 ])
         ; CProp ("zero", [])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "difference"
             , [ CProp ("plus", [ CVar 1; CProp ("plus", [ CVar 0; CVar 2 ]) ]); CVar 0 ]
             )
         ; CProp ("plus", [ CVar 1; CVar 2 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "difference"
             , [ CProp ("add1", [ CProp ("plus", [ CVar 24; CVar 25 ]) ]); CVar 25 ] )
         ; CProp ("add1", [ CVar 24 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "lt"
             , [ CProp ("plus", [ CVar 23; CVar 24 ])
               ; CProp ("plus", [ CVar 23; CVar 25 ])
               ] )
         ; CProp ("lt", [ CVar 24; CVar 25 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "lt"
             , [ CProp ("times", [ CVar 23; CVar 25 ])
               ; CProp ("times", [ CVar 24; CVar 25 ])
               ] )
         ; CProp
             ( "and"
             , [ CProp ("not", [ CProp ("zerop", [ CVar 25 ]) ])
               ; CProp ("lt", [ CVar 23; CVar 24 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("lt", [ CVar 24; CProp ("plus", [ CVar 23; CVar 24 ]) ])
         ; CProp ("not", [ CProp ("zerop", [ CVar 23 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "gcd"
             , [ CProp ("times", [ CVar 23; CVar 25 ])
               ; CProp ("times", [ CVar 24; CVar 25 ])
               ] )
         ; CProp ("times", [ CVar 25; CProp ("gcd", [ CVar 23; CVar 24 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("value", [ CProp ("normalize", [ CVar 23 ]); CVar 0 ])
         ; CProp ("value", [ CVar 23; CVar 0 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("flatten", [ CVar 23 ])
               ; CProp ("cons", [ CVar 24; CProp ("nil", []) ])
               ] )
         ; CProp
             ( "and"
             , [ CProp ("nlistp", [ CVar 23 ]); CProp ("equal", [ CVar 23; CVar 24 ]) ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("listp", [ CProp ("gother", [ CVar 23 ]) ])
         ; CProp ("listp", [ CVar 23 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("samefringe", [ CVar 23; CVar 24 ])
         ; CProp
             ("equal", [ CProp ("flatten", [ CVar 23 ]); CProp ("flatten", [ CVar 24 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("greatest_factor", [ CVar 23; CVar 24 ]); CProp ("zero", []) ] )
         ; CProp
             ( "and"
             , [ CProp
                   ( "or"
                   , [ CProp ("zerop", [ CVar 24 ])
                     ; CProp ("equal", [ CVar 24; CProp ("one", []) ])
                     ] )
               ; CProp ("equal", [ CVar 23; CProp ("zero", []) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("greatest_factor", [ CVar 23; CVar 24 ]); CProp ("one", []) ] )
         ; CProp ("equal", [ CVar 23; CProp ("one", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("numberp", [ CProp ("greatest_factor", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "not"
             , [ CProp
                   ( "and"
                   , [ CProp
                         ( "or"
                         , [ CProp ("zerop", [ CVar 24 ])
                           ; CProp ("equal", [ CVar 24; CProp ("one", []) ])
                           ] )
                     ; CProp ("not", [ CProp ("numberp", [ CVar 23 ]) ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("times_list", [ CProp ("append", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "times"
             , [ CProp ("times_list", [ CVar 23 ]); CProp ("times_list", [ CVar 24 ]) ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("prime_list", [ CProp ("append", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "and"
             , [ CProp ("prime_list", [ CVar 23 ]); CProp ("prime_list", [ CVar 24 ]) ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CVar 25; CProp ("times", [ CVar 22; CVar 25 ]) ])
         ; CProp
             ( "and"
             , [ CProp ("numberp", [ CVar 25 ])
               ; CProp
                   ( "or"
                   , [ CProp ("equal", [ CVar 25; CProp ("zero", []) ])
                     ; CProp ("equal", [ CVar 22; CProp ("one", []) ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("ge", [ CVar 23; CVar 24 ])
         ; CProp ("not", [ CProp ("lt", [ CVar 23; CVar 24 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CVar 23; CProp ("times", [ CVar 23; CVar 24 ]) ])
         ; CProp
             ( "or"
             , [ CProp ("equal", [ CVar 23; CProp ("zero", []) ])
               ; CProp
                   ( "and"
                   , [ CProp ("numberp", [ CVar 23 ])
                     ; CProp ("equal", [ CVar 24; CProp ("one", []) ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("remainder", [ CProp ("times", [ CVar 24; CVar 23 ]); CVar 24 ])
         ; CProp ("zero", [])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CProp ("times", [ CVar 0; CVar 1 ]); CProp ("one", []) ])
         ; CProp
             ( "and"
             , [ CProp ("not", [ CProp ("equal", [ CVar 0; CProp ("zero", []) ]) ])
               ; CProp ("not", [ CProp ("equal", [ CVar 1; CProp ("zero", []) ]) ])
               ; CProp ("numberp", [ CVar 0 ])
               ; CProp ("numberp", [ CVar 1 ])
               ; CProp ("equal", [ CProp ("sub1", [ CVar 0 ]); CProp ("zero", []) ])
               ; CProp ("equal", [ CProp ("sub1", [ CVar 1 ]); CProp ("zero", []) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "lt"
             , [ CProp ("length", [ CProp ("delete", [ CVar 23; CVar 11 ]) ])
               ; CProp ("length", [ CVar 11 ])
               ] )
         ; CProp ("member", [ CVar 23; CVar 11 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("sort2", [ CProp ("delete", [ CVar 23; CVar 11 ]) ])
         ; CProp ("delete", [ CVar 23; CProp ("sort2", [ CVar 11 ]) ])
         ] ));
  add (CProp ("equal", [ CProp ("dsort", [ CVar 23 ]); CProp ("sort2", [ CVar 23 ]) ]));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "length"
             , [ CProp
                   ( "cons"
                   , [ CVar 0
                     ; CProp
                         ( "cons"
                         , [ CVar 1
                           ; CProp
                               ( "cons"
                               , [ CVar 2
                                 ; CProp
                                     ( "cons"
                                     , [ CVar 3
                                       ; CProp
                                           ( "cons"
                                           , [ CVar 4
                                             ; CProp ("cons", [ CVar 5; CVar 6 ])
                                             ] )
                                       ] )
                                 ] )
                           ] )
                     ] )
               ] )
         ; CProp ("plus", [ CProp ("six", []); CProp ("length", [ CVar 6 ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "difference"
             , [ CProp ("add1", [ CProp ("add1", [ CVar 23 ]) ]); CProp ("two", []) ] )
         ; CProp ("fix", [ CVar 23 ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "quotient"
             , [ CProp ("plus", [ CVar 23; CProp ("plus", [ CVar 23; CVar 24 ]) ])
               ; CProp ("two", [])
               ] )
         ; CProp ("plus", [ CVar 23; CProp ("quotient", [ CVar 24; CProp ("two", []) ]) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("sigma", [ CProp ("zero", []); CVar 8 ])
         ; CProp
             ( "quotient"
             , [ CProp ("times", [ CVar 8; CProp ("add1", [ CVar 8 ]) ])
               ; CProp ("two", [])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("plus", [ CVar 23; CProp ("add1", [ CVar 24 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("numberp", [ CVar 24 ])
               ; CProp ("add1", [ CProp ("plus", [ CVar 23; CVar 24 ]) ])
               ; CProp ("add1", [ CVar 23 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "equal"
             , [ CProp ("difference", [ CVar 23; CVar 24 ])
               ; CProp ("difference", [ CVar 25; CVar 24 ])
               ] )
         ; CProp
             ( "if"
             , [ CProp ("lt", [ CVar 23; CVar 24 ])
               ; CProp ("not", [ CProp ("lt", [ CVar 24; CVar 25 ]) ])
               ; CProp
                   ( "if"
                   , [ CProp ("lt", [ CVar 25; CVar 24 ])
                     ; CProp ("not", [ CProp ("lt", [ CVar 24; CVar 23 ]) ])
                     ; CProp
                         ( "equal"
                         , [ CProp ("fix", [ CVar 23 ]); CProp ("fix", [ CVar 25 ]) ] )
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp
             ( "meaning"
             , [ CProp ("plus_tree", [ CProp ("delete", [ CVar 23; CVar 24 ]) ]); CVar 0 ]
             )
         ; CProp
             ( "if"
             , [ CProp ("member", [ CVar 23; CVar 24 ])
               ; CProp
                   ( "difference"
                   , [ CProp ("meaning", [ CProp ("plus_tree", [ CVar 24 ]); CVar 0 ])
                     ; CProp ("meaning", [ CVar 23; CVar 0 ])
                     ] )
               ; CProp ("meaning", [ CProp ("plus_tree", [ CVar 24 ]); CVar 0 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("times", [ CVar 23; CProp ("add1", [ CVar 24 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("numberp", [ CVar 24 ])
               ; CProp
                   ( "plus"
                   , [ CVar 23
                     ; CProp ("times", [ CVar 23; CVar 24 ])
                     ; CProp ("fix", [ CVar 23 ])
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("nth", [ CProp ("nil", []); CVar 8 ])
         ; CProp
             ("if", [ CProp ("zerop", [ CVar 8 ]); CProp ("nil", []); CProp ("zero", []) ])
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("last", [ CProp ("append", [ CVar 0; CVar 1 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("listp", [ CVar 1 ])
               ; CProp ("last", [ CVar 1 ])
               ; CProp
                   ( "if"
                   , [ CProp ("listp", [ CVar 0 ])
                     ; CProp
                         ( "cons"
                         , [ CProp ("car", [ CProp ("last", [ CVar 0 ]) ]); CVar 1 ] )
                     ; CVar 1
                     ] )
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("equal", [ CProp ("lt", [ CVar 23; CVar 24 ]); CVar 25 ])
         ; CProp
             ( "if"
             , [ CProp ("lt", [ CVar 23; CVar 24 ])
               ; CProp ("equal", [ CProp ("true", []); CVar 25 ])
               ; CProp ("equal", [ CProp ("false", []); CVar 25 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("assignment", [ CVar 23; CProp ("append", [ CVar 0; CVar 1 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("assignedp", [ CVar 23; CVar 0 ])
               ; CProp ("assignment", [ CVar 23; CVar 0 ])
               ; CProp ("assignment", [ CVar 23; CVar 1 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("car", [ CProp ("gother", [ CVar 23 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("listp", [ CVar 23 ])
               ; CProp ("car", [ CProp ("flatten", [ CVar 23 ]) ])
               ; CProp ("zero", [])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("flatten", [ CProp ("cdr", [ CProp ("gother", [ CVar 23 ]) ]) ])
         ; CProp
             ( "if"
             , [ CProp ("listp", [ CVar 23 ])
               ; CProp ("cdr", [ CProp ("flatten", [ CVar 23 ]) ])
               ; CProp ("cons", [ CProp ("zero", []); CProp ("nil", []) ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("quotient", [ CProp ("times", [ CVar 24; CVar 23 ]); CVar 24 ])
         ; CProp
             ( "if"
             , [ CProp ("zerop", [ CVar 24 ])
               ; CProp ("zero", [])
               ; CProp ("fix", [ CVar 23 ])
               ] )
         ] ));
  add
    (CProp
       ( "equal"
       , [ CProp ("get", [ CVar 9; CProp ("set", [ CVar 8; CVar 21; CVar 12 ]) ])
         ; CProp
             ( "if"
             , [ CProp ("eqp", [ CVar 9; CVar 8 ])
               ; CVar 21
               ; CProp ("get", [ CVar 9; CVar 12 ])
               ] )
         ] ))

(* Tautology checker *)

let truep x lst =
  match x with
  | Prop (head, _) -> head.name = "true" || List.mem x lst
  | _ -> List.mem x lst

and falsep x lst =
  match x with
  | Prop (head, _) -> head.name = "false" || List.mem x lst
  | _ -> List.mem x lst

let rec tautologyp x true_lst false_lst =
  if truep x true_lst
  then true
  else if falsep x false_lst
  then false
  else
    (*
 print_term x; print_newline();
*)
    match x with
    | Var _ -> false
    | Prop (head, [ test; yes; no ]) ->
        if head.name = "if"
        then
          if truep test true_lst
          then tautologyp yes true_lst false_lst
          else if falsep test false_lst
          then tautologyp no true_lst false_lst
          else
            tautologyp yes (test :: true_lst) false_lst
            && tautologyp no true_lst (test :: false_lst)
        else false
    | _ -> assert false

let tautp x =
  (*  print_term x; print_string"\n"; *)
  let y = rewrite x in
  (*    print_term y; print_string "\n"; *)
  tautologyp y [] []

(* the benchmark *)

let subst =
  [ Bind
      ( 23
      , cterm_to_term
          (CProp
             ( "f"
             , [ CProp
                   ( "plus"
                   , [ CProp ("plus", [ CVar 0; CVar 1 ])
                     ; CProp ("plus", [ CVar 2; CProp ("zero", []) ])
                     ] )
               ] )) )
  ; Bind
      ( 24
      , cterm_to_term
          (CProp
             ( "f"
             , [ CProp
                   ( "times"
                   , [ CProp ("times", [ CVar 0; CVar 1 ])
                     ; CProp ("plus", [ CVar 2; CVar 3 ])
                     ] )
               ] )) )
  ; Bind
      ( 25
      , cterm_to_term
          (CProp
             ( "f"
             , [ CProp
                   ( "reverse"
                   , [ CProp
                         ( "append"
                         , [ CProp ("append", [ CVar 0; CVar 1 ]); CProp ("nil", []) ] )
                     ] )
               ] )) )
  ; Bind
      ( 20
      , cterm_to_term
          (CProp
             ( "equal"
             , [ CProp ("plus", [ CVar 0; CVar 1 ])
               ; CProp ("difference", [ CVar 23; CVar 24 ])
               ] )) )
  ; Bind
      ( 22
      , cterm_to_term
          (CProp
             ( "lt"
             , [ CProp ("remainder", [ CVar 0; CVar 1 ])
               ; CProp ("member", [ CVar 0; CProp ("length", [ CVar 1 ]) ])
               ] )) )
  ]

let term =
  cterm_to_term
    (CProp
       ( "implies"
       , [ CProp
             ( "and"
             , [ CProp ("implies", [ CVar 23; CVar 24 ])
               ; CProp
                   ( "and"
                   , [ CProp ("implies", [ CVar 24; CVar 25 ])
                     ; CProp
                         ( "and"
                         , [ CProp ("implies", [ CVar 25; CVar 20 ])
                           ; CProp ("implies", [ CVar 20; CVar 22 ])
                           ] )
                     ] )
               ] )
         ; CProp ("implies", [ CVar 23; CVar 22 ])
         ] ))

let _ =
  let ok = ref true in
  for _ = 1 to 50 do
    if not (tautp (apply_subst subst term)) then ok := false
  done;
  assert !ok

(*
  if !ok then
    print_string "Proved!\n"
  else
    print_string "Cannot prove!\n";
  exit 0
*)

(*********
  with
      failure s ->
        print_string "Exception failure("; print_string s; print_string ")\n"
    | Unify ->
        print_string "Exception Unify\n"
    | match_failure(file,start,stop) ->
        print_string "Exception match_failure(";
        print_string file;
        print_string ",";
        print_int start;
        print_string ",";
        print_int stop;
        print_string ")\n"
    | _ ->
        print_string "Exception ?\n"

  **********)
